DE1029038B - Color television receiver - Google Patents

Description

GERMAN

In the color television equipment used today, the image is transmitted by means of of a television character composed of a brightness component and a color component is. The brightness component corresponds to the television symbol used for black and white television, while the color component consists of a color subcarrier wave that is in different Phase positions with the color character voltages corresponding to the basic colors of the sent image points is modulated. In addition, the television character voltage contains the usual line and frame synchronizing pulses also color synchronization pulses, which consist of about ten periods of the unmodulated color subcarrier wave exist. In the receiver, the brightness component supplied to the cathode ray tube results a black and white image on the screen of the tube while the color subcarrier wave passes through Superposition of vibrations, the frequency of which corresponds to the frequency of the color subcarrier wave and correspond in their phases to the different modulation phases of the color subcarrier wave, demodulated whereupon the modulation components of the color subcarrier wave thus obtained also fed to the cathode ray tube and used to color the generated by the brightness component Black and white image can be used.

The color synchronization pulses are used to ensure the correct frequency and phase of the Locally generated vibrations causing modulation of the color subcarrier wave. To this end both these oscillations and the color synchronization pulses of a phase comparison circuit fed, in which a control DC voltage depending on their mutual phase relationship is generated, via a reactance circuit, the generator generating the aforementioned vibrations influenced. The usual phase comparison voltage consists of a simple, balanced phase modulator. The subject of the main patent is a perfected form of the phase comparison circuit, in which it contains two balanced phase demodulators, one of which the tensions to be compared with each other in their phase in the same phase and with the other a mutual phase difference of 90 °. The second-mentioned 90 ° phase demodulator supplies an output voltage that is in the synchronous operating state of the aforementioned generator Becomes zero and with phase differences between the generator voltage and the color synchronization pulses positive or negative depending on the size and meaning of these phase deviations Assumes values while the in-phase color television receiver excites

Addition to patent 1 002 7Θ0

Applicant:

Hazeltine Corporation,
Washington, DC (V. St. A.)

Representative: Dipl.-Ing. W. Mouths, patent attorney,
Frankfurt / M., Börsenstr. 17th

Claimed priority:
V. St. v. America June 16, 1955

Donald Richman, Fresh Meadows, NY (V. St. Α.),
has been named as the inventor

demodulator delivers an output voltage that in the synchronous operating state of the generator one of the Value 0 assumes a different, appropriately large negative value. The 90 ° phase demodulator is used so the usual phase control, while the control voltage generated by the in-phase phase demodulator among other things to increase the sensitivity and to enlarge the effective range of the 90 ° phase demodulator can be used. Below the scope of the automatic The phase regulator is that range of frequency or phase difference between the above-mentioned Generator and the color synchronization pulses understood, within which the automatic Phase regulator is still able to restore synchronism, while the sensitivity of the automatic phase controller determines the time that the automatic phase controller for a given Frequency or phase difference required to restore synchronism. The larger the area of effectiveness of the phase controller, the greater its susceptibility to failure and the lower it is the stability of the synchronous state of the generator, while the sensitivity with the size of the Effective area decreases. It is therefore desirable to control the phase regulator so that its Effective area in the synchronous state of the generator is small and only when necessary, i. H. in the

80S 508/109

asynchronous state of the generator, which is increased according to requirements. This enlargement the range of effectiveness and the sensitivity of the automatic phase regulator can be achieved by Increase in the amplitude of one of the voltages supplied to the phase comparison circuit, for example caused by the color synchronization pulses, as well as by increased amplification of their output voltage will. According to the main patent, the output voltage of the in-phase phase demodulator was used for this purpose controlled separate amplifiers are used. The invention aims to effect these two controls with the help of a single amplifier.

According to the invention, in the synchronous operating state of the by the color synchronization pulses synchronized generator of the receiver by a limit value deviating from the value 0 assuming control voltage is controlled by an amplifier with two output circuits, one of which is on one to amplify the color synchronization pulses and the other to a frequency-determining amplifier Acts circuit of the said generator.

The invention is explained in more detail with reference to the exemplary embodiments shown in the drawing.

1 is a circuit diagram of a complete color television receiver incorporating the device according to the invention; while the

FIGS. 2 and 3 illustrate two different embodiments of the device according to the invention. The color television receiver according to FIG. 1 contains an input part 10 connected to the antenna 11, the high frequency amplifier, the superimposed stage, the intermediate frequency amplifier and the demodulator includes. An image content amplifier 12 with a frequency range is connected to this input part of about 0 to 4.2 MHz and a delay network 13 for the luminance component of the received color television signal voltage and one of an amplifier 15 having a frequency range of about 2 to 4.2 MHz and one Device 16 for demodulating the color subcarrier wave and for forming the color character voltages suitable for controlling the image display device existing character channel for the color component of the received color television character voltage connected. Both of the named character channels lead to the image display device 14, which, for example, a cathode ray tube with three electrode systems for generating three Cathode rays can be, each of which has one of the transmitted primary colors green, red and blue of the color image to be reproduced is assigned. The demodulation of the color subcarrier wave happens by superimposing the color subcarrier wave with vibrations whose frequency is equal to that of the Color subcarrier wave (3.58 MHz) and its phase corresponds to the phase positions of the modulation components corresponds to the color subcarrier shaft. These vibrations are supplied by the generator 17.

The exact correspondence of the frequency and the phase of the output voltage of the generator 17 with the frequency and the reference phase of the modulated color subcarrier wave is ensured by the device 20 designed according to the invention, which contains an automatic phase comparison circuit 18 essentially designed according to the main patent, which on the one hand the output voltage of the generator 17 and, on the other hand, via the amplifier 15 and a current gate 22, the color synchronizing pulses contained in the color component of the received color television character voltage are supplied. The device 18 generates two control voltages in the manner to be described in more detail below, one of which is fed to a reactance circuit 19 serving to regulate the frequency and phase of the generator 17, while the other is used to control a device 21 which is connected to the amplifier 15 is in connection and has the task of blocking this amplifier in the absence of the color component of the received television character voltage, ie when receiving a black and white television broadcast, and thus making the color character channel ineffective. In addition, this device 21 also has the task of regulating the range of effectiveness and the sensitivity of the automatic phase regulator as a function of the given operating state of the generator 17.

The device 21 is connected to the amplifier 15 via a low-pass filter 33 and an isolating resistor 29 and is connected to the reactance circuit 19 via a capacitor 34. Also the parts 22 and 18 are connected to the amplifier 15, namely the current gate 22 via a capacitor 27 and a resistor 28 and the phase comparison circuit 18 via two connected in series with one another Resistors 30 and 31, the connection point of which is grounded via a shunt capacitor 32.

A sync separator is also connected to the input part 10 23 the deflection voltage generators 24 and 25 for the horizontal and vertical deflection of the cathode rays of the cathode ray tube 14 connected to the deflection coils of the Cathode ray tube are connected. Moreover, an output circuit of the deflection voltage generator 24 is for for the horizontal deflection, preferably a tap on the output transformer of this Generator, also connected to the power gate 22 and to the device 21. Finally stands with the Input part 10 also connects to the sound reproduction part 26 of the receiver.

All of the aforementioned parts of the receiver, with the exception of device 20, can be of the usual type, so that a more detailed explanation of their structure and mode of operation is superfluous.

The device 20 is shown in detail in FIG. The stream gate 22 includes one bifilar wound transformer 42, the primary winding of which is connected to the amplifier 15, while to its secondary winding, which is matched to the color subcarrier shaft, via a capacitor 46 and a diode 47, the secondary winding of a further transformer 48 connected in parallel whose primary winding is connected to a tap point of the output transformer of the line deflection voltage generator 24 communicates. To the secondary winding of the transformer 48 are two resistors 49 and 49 connected in series with one another 50 connected in parallel, the resistor 50 for regulating the gain of the amplifier 15 is used during the line retrace intervals and via capacitor 27 and resistors 28 and 29 connected to this amplifier.

The phase comparison circuit 18 contains three diodes 43, 44, 45, a bifilar wound transformer 41 and a resonant circuit 51 tuned to the frequency of the generator 17. Also the two windings of the transformer 41 are tuned to this frequency. The cathodes of diodes 43 and 44 and

5 6

the anode of the diode 45 are connected to one another. Connection point via the capacitor 34 to which and jointly to the connection point the secondary reactance circuit 19 is connected. Därwickung of the transformer 42 and the condensate purpose better understanding of the mode of operation sators 46 connected. The primary winding of the device shown in Fig. 2 is the purpose transformer 41 is moderately connected via a capacitor 40 with S, first of all the functions of the various generator 17 and is moreover generally connected to a capacitor 52 via which parts of this device the anode of the diode 43 in Fig. 4. The phase comparison circuit 18 provides connection, while the secondary winding of the amplifier 15 is connected to a control voltage for the automatic amplification cathode of the diode 45 via the resistors 30, 31 and transformer via a capacitor 53. The Anode io regulation in the color character channel, the size of which is also dependent on that of the diode 43, with the cathode of the diode amplitude of the phase comparison circuit 18 to 45 via two signaled color synchronization pulses connected in series. Stands 54 and 55, whose connection point If of the phase comparison circuit 18 does not have any color via a Ko ndensator 57 is grounded and fed to the synchronization pulses because example reactance circuit 19 is in connection. The resonance way 15 a black and white image transmission is received, circuit 51 is used for phase adjustment, this control voltage is negative and blocks the capacitor 58 to the cathode of the diode 45 and more strongly 15. The current gate 22 is through the it of another capacitor 59 connected to the anode of the deflection voltage generator 24 fed line back diode 44. The cathode of the diode 45 is controlled so that the output circuit is connected to the anode of the diode 44 via three resistors 60, 61 and 62 connected to each other in 20 of the amplifier 15 only during the occurrence of the series. wherein the connection point of the resistors 61 connects sen comparing circuit 18. It also supplies and 62 is grounded via a capacitor 63. The current gate 22 during the appearance of the color anode of the diode 44 is also connected to the amplifier 15 via the resistors, via the synchronizing pulses 30, 31 and 29, to the amplifier 15. 25 capacitor 27 and resistors 28, 29 an in

The diodes 43 and 45 together form its size with the aid of the resistor 50 90 ° phase demodulator and result in a positive control pulse at output, which increases the past capacitor 57 brings about a strengthening of the color synchronization pulses to regulate the frequency, of the generator 17 serving control voltage, which in the Since the grid-cathode circuit of the amplifier 15 the synchronous operating state of the generator the 30 peaks of the color synchronizing pulses on that Has value 0 and, depending on the size and voltage value, determines at which grid current to the sense of the frequency deviation begins to flow differently large, and since the amplifier 15 one of assumes positive or negative values, while those of the amplitude of the color synchronizing pulses depend on the diodes 44 and 45 taken together are supplied with an equal control voltage, each has Form phase demodulator, its caused at the connection 35 help of the resistor 50 enlargement of the Point of the resistors 61 and 62 measured amplitude of the color synchronization pulses a past voltage in the synchronous operating state of the reduction of the gain of the color character voltage generator 17 results in a limit value deviating from 0 and therefore enables regulation and in the asynchronous operating state of the size of the color character voltages. Generator becomes zero. The device 18 is 40 although the amplifier 15 in the absence of expediently designed so that the synchro color synchronizing pulses through the him over the NEN operating state of the generator 17 at the condenser resistors 30 and 31 supplied automatic control gate 63 resulting output voltage of the same phase voltage is blocked, it must during the Auftre phase demodulator a large negative value, at least the line retrace pulses are permeable, for example, -15 volts, and the output voltage thus approximately re-arriving color synchronization if a pulse is not taken directly at the capacitor 63 to cancel its blocking, but at the junction of the nen. For this purpose, the amplifier 64 is through Resistors 60 and 61, at which one in the asyn- the phase comparison circuit 18 in the absence of chronic operating state of the generator 17 a color synchronization pulses during the occurrence made permeable small voltage value deviating from 0 50 of the line retrace pulses, and for example + 2 volts. in these periods of time the amplifier 15 is over

The device 21 contains a triode 64 whose anode circuit of the amplifier 64 is supplied with positive pulses to the control grid with the connection point of the resistance large amplitude, which make the amplifier 15 positions 60 and 61 of the phase comparison circuit 18 transparent and its amplification is connected to the. Furthermore, this control grid 55 will increase the maximum value, so that the negative line retrace pulses are then supplied via a coil 66 which, with a capacitor 67 in matching color synchronization pulses of the phase-shifting series circuit between the control grid of the tube matching circuit 18 with maximum amplitude and ground leads to be fed and on the one hand the immediate cancellation. The coil 66 is inductively 60 coupled to a winding of the blocking of the amplifier 15 and, on the other hand, the transformer of the line deflection generator, for rapid synchronization of the generator 17. The triode 64 has two output circuits, from lead. At the connection point of the resistors 60, which one is connected to the anode and the other to the and 61, in the asynchronous operating state the cathode of the triode is connected. The anode also contains an additional control voltage in the form of a circle, via a load resistor 68 to a heterodyne voltage, which has the same voltage source + B connected to the anode over time as well as 65 curve as the constantly changing phase end low-pass filter 33, which connects this circuit with the difference between the two of the comparative switching amplifier 15 connects while the cathode circuit device is supplied with input voltages. For the purpose of a resistor connecting the cathode to earth, the acceleration of the synchronization of the 69 and two parallel connected to each other in generator 17, the reactance circuit 19 contains resistors 70 and 71 located above the series, the 70 cathode circuit of which of the amplifier 64 also contains these additional

borrowed control voltage supplied. It follows from the way in which the additional control voltage is generated Said that this control voltage is an alternating voltage. You can therefore use the capacitor 34 are transmitted and get to the reactance circuit.

The aforementioned processes are carried out in detail as follows: The diode 47 of the power gate 22 normally forms a shunt resistor

that the color synchronizing pulses with significantly increased amplitude to the phase comparison circuit 18 arrive, whereby the effectiveness of the phase regulation is increased accordingly. This effect is also supported by the fact that the result at the connection point of the resistors 60 and 61 positive voltage in the cathode circuit of amplifier 64 appears in amplified form and over the capacitor 34 also to the reactance circuit 19

stand small impedance for the secondary winding of the ^{10 is} fed to the synchronization of the generator

Transformer 42 and in this way prevents the supply of the output voltage of the amplifier 15 to the phase comparison circuit 18, with the exception of those periods in which its cathode the flyback pulses from the deflection voltage generator 24 are supplied with positive polarity. During these periods the diode 47 is blocked, and as a result, the color sync pulses occurring in these periods of time can over the

tors 17 to accelerate even more.

In the embodiment of the device 21 shown in FIG state of the generator 17 is the same as the line return pulse fed to the control grid of the amplifier 64 in the cathode circuit of this amplifier and thus also in the reactance circuit 19. Since this in some Cases is undesirable, Fig. 3 shows another embodiment (321) of the device 21, in which

Transformer 42 does not reach the phase comparison circuit ²⁰ of the line flyback pulse in the cathode circuit 18, at the same time a can pass through the resistance of the amplifier.

stood 50 certain part of the positive line back- The device 321 contains an amplifier 80,

running pulse the amplifier 15 via the condensate whose control grid via an isolating resistor 82 to sator 27 and the resistors 28 and 29 as control the connection point of the resistors 60 and 61 of the voltage for the color character voltages supplied ² 5 Phase comparison circuit 18 is connected. That will. Cathode circuit of amplifier 80 can be either

The color supplied to the diodes 43, 44 and 45, as well as the cathode circuit of the synchronizing pulses, together with the amplifier 64 of the device 21, or it can be simplified diodes in different phases and sizes so that it only performed one work-failure Output voltage of the generator 17 in the ³ ° stand 83 contains. The anode circuit of amplifier 80

In the main patent explained way on the capacitors 57 and 63 two control voltages, of which one, namely the control voltage resulting at the capacitor 57, in the synchronous operating state of the generator 17 assumes the value 0 and for the purpose of synchronizing the generator 17 the Reactance circuit 19 is supplied, while the other, namely the control voltage resulting at the capacitor 63, in the synchronous operating state of the generator 17 has a large negative value and im asynchronous operating state of the generator becomes zero. This control voltage is applied at the connection point of resistors 60 and 61 removed, where they are in the asynchronous operating state of the generator

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contains, in addition to the usual working resistance 84, a further working resistance 85, to which about a coil 86 is connected to the anode of a diode 87, the cathode of which is connected to the anode of the amplifier 80 is connected and, on the other hand, is grounded via an isolating capacitor 88. The line retrace pulses are from the generator 24 via a capacitor 90 to the connection point of the resistor 85 with the coil 86, which is also connected to the low-pass filter 33.

If the generator 17 is running synchronously and the amplifier 80 is blocked as a result, neither occurs in the In the cathode circuit there is also an output voltage in the anode circuit of this amplifier. That

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appears with a small positive value and of ⁴⁵ this also applies to the anode circuit, although this one

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the negative line return pulse is supplied, has its explanation in the fact that in the disabled state of the Amplifier 80 there is hardly any voltage difference between the two ends of the resistor 84,

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where it goes to the control grid of amplifier 64. The diode 44, like the other two Diodes both the output voltage of the generator

Pg 17 are supplied as well as the Farbsynchronisierimpulse acts way as a simple Spitzengleich- So _so ^ ate _{a] as} di _e diode is blocked 87 and the line converter for the supplied here voltage greater flyback pulse no current flow through it produces amplitude, ie for the Farbsynchronisierimpulse , can call. As a result, there is also no voltage drop at the resistor and the rectified stand 85 resulting in this way, and therefore the voltage is determined by the resistor connection point of the resistor 85 and the coil capacitor combination 30, 31, 32 55 86 no output voltage visible. Average value of the amplifier 15 as the control voltage. If the generator 17 runs asynchronously and the voltage for the automatic gain control is therefore permeable, the amplifier 80 falls as a result of this. Anode current is the value of the voltage at the anode In the synchronous operating state of the generator 17 of the amplifier 80 slightly below the value + B, so that the amplifier 64 through which current flows in the diode at the Ver 6o. This current has a tie point of the resistors 60 and 61 of the phase voltage drop across the resistor 85, and sen comparing circuit 18 resulting large negative therefore also falls the value of the voltage at the anode voltage blocked. If, on the other hand, the generator 17 of the diode 87 runs down to the same value that is asynchronous at the anode, then that of the triode 80 appears at the connection point. As soon as the anode of the resistors 60 and 61 is supplied with a small positive voltage, 65 diode negative line return pulses who make the amplifier 64 permeable, so that the, the diode is blocked immediately, and the negative voltage supplied to the grid of the amplifier at the connection point of the resistor 85 line return pulse in the anode circuit of the amplifier and the coil 86 increases to the value + B. After amplified with positive polarity, the termination of the negative line return pulse occurs and the gain in amplifier 15 is increased in such a way that the diode 87 becomes permeable again, and the tension

at the junction of resistor 85 and coil 86 drops back to its previous value. on in this way, the negative line retrace pulse across resistor 85 calls a positive voltage pulse and this reaches the amplifier 15 via the low-pass filter in order to amplify the color synchronization pulses to increase.

It is apparent from the illustrated operation of the circuit 321 that it is related to the transmission of the line retrace pulses with the circuit of FIG. 2 is equivalent. On the other hand but the line retrace pulses in circuit 321 are not sent to the control grid circuit of tube 80, but fed to the anode circuit of this tube, so that essentially no line return pulses the capacitor 34 reach the reactance circuit 19.

Claims (7)

PATENT CLAIMS: 1. Color television receiver, which is used for phase comparison of the synchronizing shaft train that is also transmitted with the local oscillator contains a first phase demodulator, which is in the asynchronous Operating state a voltage different from zero for readjusting the frequency of the oscillator outputs, and a second phase demodulator, which is one of zero in the synchronous operating state emits different control voltage, according to patent 1 002 790, characterized in that with the Control voltage an amplifier with two output circuits is controlled, one of which to an amplifier serving to amplify the color synchronizing pulses and the other a frequency-determining circuit of said generator also acts. 2. Color television receiver according to claim 1, characterized in that the control voltage generating device is designed so that the control voltage the amplifier controlled by it blocks in the synchronous operating state of said generator and in its asynchronous operating state as well as in the absence of the color synchronization impulses. 3. Color television receiver according to claim 2, characterized in that the line return pulses of the receiver are fed to the first-mentioned amplifier via the output circuit of the amplifier controlled by the control voltage, which acts on the amplifier to amplify the color synchronization pulses, in such a way that they increase the sensitivity of this amplifier. 4. Color television receiver according to claim 3, characterized in that the on the amplifier output circuit of the amplifier controlled by the control voltage, acting to amplify the color synchronization pulses, to its anode and that of the frequency-determining circuit of the synchronized with the color synchronization pulses Generator acting output circuit of this amplifier is connected to its cathode. 5. Color television receiver according to claim 4, characterized in that the line return pulses with negative polarity the control grid of the expensive voltage controlled amplifier are fed. 6. Color television receiver according to claims 3 and 4, characterized in that the line return pulses in the anode circuit of the Control voltage controlled amplifier via one of the anode current of this amplifier controlled rectifier are introduced. 7. Color television receiver according spoke 6, characterized in that the two electrodes of the rectifier is connected to the two ends of the anode load resistor of the amplifier and the negative flyback pulses are fed to the anode of the rectifier will. 1 sheet of drawings © 809 508/109 4.58